eaiaiaiaoi/venv/lib/python2.7/site-packages/scipy/sparse/linalg/isolve/tests/test_lsmr.py

"""
Copyright (C) 2010 David Fong and Michael Saunders
Distributed under the same license as Scipy

Testing Code for LSMR.

03 Jun 2010: First version release with lsmr.py

David Chin-lung Fong            clfong@stanford.edu
Institute for Computational and Mathematical Engineering
Stanford University

Michael Saunders                saunders@stanford.edu
Systems Optimization Laboratory
Dept of MS&E, Stanford University.

"""

from __future__ import division, print_function, absolute_import

from numpy import array, arange, eye, zeros, ones, sqrt, transpose, hstack
from numpy.linalg import norm
from numpy.testing import (assert_almost_equal,
                           assert_array_almost_equal)

from scipy.sparse import coo_matrix
from scipy.sparse.linalg.interface import aslinearoperator
from scipy.sparse.linalg import lsmr
from .test_lsqr import G, b


class TestLSMR:
    def setup_method(self):
        self.n = 10
        self.m = 10

    def assertCompatibleSystem(self, A, xtrue):
        Afun = aslinearoperator(A)
        b = Afun.matvec(xtrue)
        x = lsmr(A, b)[0]
        assert_almost_equal(norm(x - xtrue), 0, decimal=5)

    def testIdentityACase1(self):
        A = eye(self.n)
        xtrue = zeros((self.n, 1))
        self.assertCompatibleSystem(A, xtrue)

    def testIdentityACase2(self):
        A = eye(self.n)
        xtrue = ones((self.n,1))
        self.assertCompatibleSystem(A, xtrue)

    def testIdentityACase3(self):
        A = eye(self.n)
        xtrue = transpose(arange(self.n,0,-1))
        self.assertCompatibleSystem(A, xtrue)

    def testBidiagonalA(self):
        A = lowerBidiagonalMatrix(20,self.n)
        xtrue = transpose(arange(self.n,0,-1))
        self.assertCompatibleSystem(A,xtrue)

    def testScalarB(self):
        A = array([[1.0, 2.0]])
        b = 3.0
        x = lsmr(A, b)[0]
        assert_almost_equal(norm(A.dot(x) - b), 0)

    def testColumnB(self):
        A = eye(self.n)
        b = ones((self.n, 1))
        x = lsmr(A, b)[0]
        assert_almost_equal(norm(A.dot(x) - b.ravel()), 0)

    def testInitialization(self):
        # Test that the default setting is not modified
        x_ref = lsmr(G, b)[0]
        x0 = zeros(b.shape)
        x = lsmr(G, b, x0=x0)[0]
        assert_array_almost_equal(x_ref, x)

        # Test warm-start with single iteration
        x0 = lsmr(G, b, maxiter=1)[0]
        x = lsmr(G, b, x0=x0)[0]
        assert_array_almost_equal(x_ref, x)

class TestLSMRReturns:
    def setup_method(self):
        self.n = 10
        self.A = lowerBidiagonalMatrix(20,self.n)
        self.xtrue = transpose(arange(self.n,0,-1))
        self.Afun = aslinearoperator(self.A)
        self.b = self.Afun.matvec(self.xtrue)
        self.returnValues = lsmr(self.A,self.b)

    def testNormr(self):
        x, istop, itn, normr, normar, normA, condA, normx = self.returnValues
        assert_almost_equal(normr, norm(self.b - self.Afun.matvec(x)))

    def testNormar(self):
        x, istop, itn, normr, normar, normA, condA, normx = self.returnValues
        assert_almost_equal(normar,
                norm(self.Afun.rmatvec(self.b - self.Afun.matvec(x))))

    def testNormx(self):
        x, istop, itn, normr, normar, normA, condA, normx = self.returnValues
        assert_almost_equal(normx, norm(x))


def lowerBidiagonalMatrix(m, n):
    # This is a simple example for testing LSMR.
    # It uses the leading m*n submatrix from
    # A = [ 1
    #       1 2
    #         2 3
    #           3 4
    #             ...
    #               n ]
    # suitably padded by zeros.
    #
    # 04 Jun 2010: First version for distribution with lsmr.py
    if m <= n:
        row = hstack((arange(m, dtype=int),
                      arange(1, m, dtype=int)))
        col = hstack((arange(m, dtype=int),
                      arange(m-1, dtype=int)))
        data = hstack((arange(1, m+1, dtype=float),
                       arange(1,m, dtype=float)))
        return coo_matrix((data, (row, col)), shape=(m,n))
    else:
        row = hstack((arange(n, dtype=int),
                      arange(1, n+1, dtype=int)))
        col = hstack((arange(n, dtype=int),
                      arange(n, dtype=int)))
        data = hstack((arange(1, n+1, dtype=float),
                       arange(1,n+1, dtype=float)))
        return coo_matrix((data,(row, col)), shape=(m,n))


def lsmrtest(m, n, damp):
    """Verbose testing of lsmr"""

    A = lowerBidiagonalMatrix(m,n)
    xtrue = arange(n,0,-1, dtype=float)
    Afun = aslinearoperator(A)

    b = Afun.matvec(xtrue)

    atol = 1.0e-7
    btol = 1.0e-7
    conlim = 1.0e+10
    itnlim = 10*n
    show = 1

    x, istop, itn, normr, normar, norma, conda, normx \
      = lsmr(A, b, damp, atol, btol, conlim, itnlim, show)

    j1 = min(n,5)
    j2 = max(n-4,1)
    print(' ')
    print('First elements of x:')
    str = ['%10.4f' % (xi) for xi in x[0:j1]]
    print(''.join(str))
    print(' ')
    print('Last  elements of x:')
    str = ['%10.4f' % (xi) for xi in x[j2-1:]]
    print(''.join(str))

    r = b - Afun.matvec(x)
    r2 = sqrt(norm(r)**2 + (damp*norm(x))**2)
    print(' ')
    str = 'normr (est.)  %17.10e' % (normr)
    str2 = 'normr (true)  %17.10e' % (r2)
    print(str)
    print(str2)
    print(' ')


if __name__ == "__main__":
    lsmrtest(20,10,0)
add in project 5 years ago			`"""`
			`Copyright (C) 2010 David Fong and Michael Saunders`
			`Distributed under the same license as Scipy`

			`Testing Code for LSMR.`

			`03 Jun 2010: First version release with lsmr.py`

			`David Chin-lung Fong clfong@stanford.edu`
			`Institute for Computational and Mathematical Engineering`
			`Stanford University`

			`Michael Saunders saunders@stanford.edu`
			`Systems Optimization Laboratory`
			`Dept of MS&E, Stanford University.`

			`"""`

			`from __future__ import division, print_function, absolute_import`

			`from numpy import array, arange, eye, zeros, ones, sqrt, transpose, hstack`
			`from numpy.linalg import norm`
			`from numpy.testing import (assert_almost_equal,`
			`assert_array_almost_equal)`

			`from scipy.sparse import coo_matrix`
			`from scipy.sparse.linalg.interface import aslinearoperator`
			`from scipy.sparse.linalg import lsmr`
			`from .test_lsqr import G, b`


			`class TestLSMR:`
			`def setup_method(self):`
			`self.n = 10`
			`self.m = 10`

			`def assertCompatibleSystem(self, A, xtrue):`
			`Afun = aslinearoperator(A)`
			`b = Afun.matvec(xtrue)`
			`x = lsmr(A, b)[0]`
			`assert_almost_equal(norm(x - xtrue), 0, decimal=5)`

			`def testIdentityACase1(self):`
			`A = eye(self.n)`
			`xtrue = zeros((self.n, 1))`
			`self.assertCompatibleSystem(A, xtrue)`

			`def testIdentityACase2(self):`
			`A = eye(self.n)`
			`xtrue = ones((self.n,1))`
			`self.assertCompatibleSystem(A, xtrue)`

			`def testIdentityACase3(self):`
			`A = eye(self.n)`
			`xtrue = transpose(arange(self.n,0,-1))`
			`self.assertCompatibleSystem(A, xtrue)`

			`def testBidiagonalA(self):`
			`A = lowerBidiagonalMatrix(20,self.n)`
			`xtrue = transpose(arange(self.n,0,-1))`
			`self.assertCompatibleSystem(A,xtrue)`

			`def testScalarB(self):`
			`A = array([[1.0, 2.0]])`
			`b = 3.0`
			`x = lsmr(A, b)[0]`
			`assert_almost_equal(norm(A.dot(x) - b), 0)`

			`def testColumnB(self):`
			`A = eye(self.n)`
			`b = ones((self.n, 1))`
			`x = lsmr(A, b)[0]`
			`assert_almost_equal(norm(A.dot(x) - b.ravel()), 0)`

			`def testInitialization(self):`
			`# Test that the default setting is not modified`
			`x_ref = lsmr(G, b)[0]`
			`x0 = zeros(b.shape)`
			`x = lsmr(G, b, x0=x0)[0]`
			`assert_array_almost_equal(x_ref, x)`

			`# Test warm-start with single iteration`
			`x0 = lsmr(G, b, maxiter=1)[0]`
			`x = lsmr(G, b, x0=x0)[0]`
			`assert_array_almost_equal(x_ref, x)`

			`class TestLSMRReturns:`
			`def setup_method(self):`
			`self.n = 10`
			`self.A = lowerBidiagonalMatrix(20,self.n)`
			`self.xtrue = transpose(arange(self.n,0,-1))`
			`self.Afun = aslinearoperator(self.A)`
			`self.b = self.Afun.matvec(self.xtrue)`
			`self.returnValues = lsmr(self.A,self.b)`

			`def testNormr(self):`
			`x, istop, itn, normr, normar, normA, condA, normx = self.returnValues`
			`assert_almost_equal(normr, norm(self.b - self.Afun.matvec(x)))`

			`def testNormar(self):`
			`x, istop, itn, normr, normar, normA, condA, normx = self.returnValues`
			`assert_almost_equal(normar,`
			`norm(self.Afun.rmatvec(self.b - self.Afun.matvec(x))))`

			`def testNormx(self):`
			`x, istop, itn, normr, normar, normA, condA, normx = self.returnValues`
			`assert_almost_equal(normx, norm(x))`


			`def lowerBidiagonalMatrix(m, n):`
			`# This is a simple example for testing LSMR.`
			`# It uses the leading m*n submatrix from`
			`# A = [ 1`
			`# 1 2`
			`# 2 3`
			`# 3 4`
			`# ...`
			`# n ]`
			`# suitably padded by zeros.`
			`#`
			`# 04 Jun 2010: First version for distribution with lsmr.py`
			`if m <= n:`
			`row = hstack((arange(m, dtype=int),`
			`arange(1, m, dtype=int)))`
			`col = hstack((arange(m, dtype=int),`
			`arange(m-1, dtype=int)))`
			`data = hstack((arange(1, m+1, dtype=float),`
			`arange(1,m, dtype=float)))`
			`return coo_matrix((data, (row, col)), shape=(m,n))`
			`else:`
			`row = hstack((arange(n, dtype=int),`
			`arange(1, n+1, dtype=int)))`
			`col = hstack((arange(n, dtype=int),`
			`arange(n, dtype=int)))`
			`data = hstack((arange(1, n+1, dtype=float),`
			`arange(1,n+1, dtype=float)))`
			`return coo_matrix((data,(row, col)), shape=(m,n))`


			`def lsmrtest(m, n, damp):`
			`"""Verbose testing of lsmr"""`

			`A = lowerBidiagonalMatrix(m,n)`
			`xtrue = arange(n,0,-1, dtype=float)`
			`Afun = aslinearoperator(A)`

			`b = Afun.matvec(xtrue)`

			`atol = 1.0e-7`
			`btol = 1.0e-7`
			`conlim = 1.0e+10`
			`itnlim = 10*n`
			`show = 1`

			`x, istop, itn, normr, normar, norma, conda, normx \`
			`= lsmr(A, b, damp, atol, btol, conlim, itnlim, show)`

			`j1 = min(n,5)`
			`j2 = max(n-4,1)`
			`print(' ')`
			`print('First elements of x:')`
			`str = ['%10.4f' % (xi) for xi in x[0:j1]]`
			`print(''.join(str))`
			`print(' ')`
			`print('Last elements of x:')`
			`str = ['%10.4f' % (xi) for xi in x[j2-1:]]`
			`print(''.join(str))`

			`r = b - Afun.matvec(x)`
			`r2 = sqrt(norm(r)*2 + (dampnorm(x))**2)`
			`print(' ')`
			`str = 'normr (est.) %17.10e' % (normr)`
			`str2 = 'normr (true) %17.10e' % (r2)`
			`print(str)`
			`print(str2)`
			`print(' ')`


			`if __name__ == "__main__":`
			`lsmrtest(20,10,0)`